磁性脂质体的制备及其在小鼠体内的分布  被引量:8

Preparation of magnetoliposomes and its in vivo behavior on ICR mice

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作  者:吴匡时[1] 唐劲天[2] 刘轩[2] 张强[1] 

机构地区:[1]北京大学药学院药剂教研室,北京100083 [2]中日友好医院临床研究所,北京100029

出  处:《药学学报》2004年第4期288-291,共4页Acta Pharmaceutica Sinica

基  金:国家自然科学基金资助项目 ( 30 1 70 90 4 )

摘  要:目的 制备磁性脂质体并考察其理化性质及在小鼠体内的自然分布和诱导分布 ,从而探讨该系统在小鼠体内分布的规律和磁响应性。方法 采用反相蒸发法制备磁性脂质体 ,以邻二氮菲染色法测定脂质体中铁磁性物质的包载量 ,按中国药典之规定对其理化性质进行测定 ,采用同位素示踪的方法研究其在小鼠体内的分布情况。结果磁性脂质体平均粒径为 60 2 5nm ,每毫升脂质体悬液可包载 88 1μgFe3O4 。自然状态下经尾静脉给药后磁性脂质体主要被脾脏摄取 ;而在磁场诱导条件下脾脏中摄取量减少 ,左右侧肝叶、左右侧肾脏中制剂分布产生明显的差异。结论 采用反相蒸发法可以制得稳定、粒径均一、铁磁性物质包载量较高的磁性脂质体 。AimTo prepare magnetoliposome (MLP) containing dextran-encapsulated magnetite (Fe 3O 4), and to examine its physicochemical properties and its in vivo behavior on ICR mice. Methods Reverse phase evaporation method was used to formulate MLP and the Fe 2+ concentration was measured by o-phenanthroline method. Then the basic properties of MLP and in vivo distribution were studied with the aid of 3H is otope as biomarker. ResultsThe mean diameter of MLP was 602 5 nm and the final concentration of encapsulated Fe 3O 4 was 88 1 mg·L -1 . Under natural conditions most of the MLP was taken up by spleen after the administration via tail vain, but its uptake was reduced under the magnetic field. There was a great difference in vivo dist ribution between the left and right lobes of the liver and the left and right ki dneys in magnetic fields. ConclusionReverse phase evaporation method was utilized to prepare magnetoliposomes. The f ormulation was stable and encapsulated high amount of magnetite. The delivery sy stem could be oriented to certain tissues under magnetic field and satisfying ma gnetic responsiveness was observed.

关 键 词:磁性脂质体 制备方法 小鼠 区域分布 自然分布 诱导分布 磁响应性 

分 类 号:R943[医药卫生—药剂学]

 

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